CN108203720A - Her2, which can be targeted, and close PD-L1 reduces the CAR-T carriers of tumor immune escape and its construction method and application - Google Patents
Her2, which can be targeted, and close PD-L1 reduces the CAR-T carriers of tumor immune escape and its construction method and application Download PDFInfo
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Abstract
The invention discloses it is a kind of can target Her2 and close PD L1 reduce tumor immune escape CAR carrier Ts, including:For people's EF1 α promoters of the eukaryotic transcription of Chimeric antigen receptor gene, as shown in SEQ ID NO.1;Integrate identification, transmission, two generation CAR of startup or the Chimeric antigen receptor of three generations CAR for forming, which includes Her2 single-chain antibody light chain VL and Her2 single-chain antibody heavy chains VH;IRES ribosome binding sequences, as shown in SEQ ID NO.10;PD L1 scFv and gene delivery vector.In addition, the construction method the invention also discloses the carrier and its application in the drug for reducing tumor immune escape is prepared.CAR T technologies of the present invention for Her2, and pass through the PD L1 scFv expressed in T lymphocytes, close the PD L1 of tumor cell surface, prevent the interaction of PD 1 and PD L1, inhibit the generation of immunosurveillance escape, enhance killing of the T lymphocytes to tumour cell, so as to improve the anti-glioma effect of CAR T immunotherapies.
Description
Technical field
The invention belongs to field of medical biotechnology, and in particular to a kind of carrier more particularly to a kind of can target Her2 and close
PD-L1 reduces the CAR-T carriers of tumor immune escape.Moreover, it relates to construction method and the application of the carrier.
Background technology
With the development of tumor immunology theory and technology, effect of the immune cell therapy in oncotherapy is increasingly subject to
Pay attention to.The study found that T lymphocytes are the natural enemies of tumour cell, play a major role in tumor immune response, to tumour cell
There is extremely strong lethal effect.
Chimeric antigen receptor T cell immunotherapy (Chimeric Antigen Receptor T-Cell
Immunotherapy, CAR-T immunotherapy) it is a kind of novel cell immunization therapy skill developed rapidly recent years
Art [Eleanor J.Cheadle, et al.CAR T cells:driving the road from the laboratory
to the clinic.Immunological Reviews 2014.Vol.257:91–106].It is identified based on immune system
It is theoretical with activation, by technique for gene engineering, site-specific is identified into (single-chain antibody scFv), starts immunocompetence and attacks swollen
The element of oncocyte is integrated into a gene, and in patient's autologous T lymphocytes of being transduceed, and defeated time patient's body, makes
Patient regains specific recognition tumour cell, activates self T-cell, targetedly attacks and kill identified tumour
The ability of cell.This is a revolutionary character and subversive oncotherapy technology, clinically has shown that its is powerful to B leaching
The oncotherapy effect of bar property leukaemia, can achieve the effect that 80% healing B lymphatic leukemias.《Science》Magazine will be adoptive
Target tumor immunization therapy is classified as the first place that ten big sciences in 2013 are broken through.
Most crucial theoretical foundation is the identification and activation of T lymphocytes in CAR-T immunotherapies, it is not mainly by
Different specific antigen on same scFv tumor cells, then Hinge the and Transmembrane areas for passing through CD8 molecules
Signal is reached to CD28 or CD137 the and TCR costimulations active region in T Lymphocyte Membranes, activates itself T lymph thin so as to reach
Born of the same parents targetedly attack and kill the purpose of identified tumour cell.But it the different different target spots of researchers and is total to
There are certain othernesses for result obtained by the research that stimulus signal combination is carried out, and different researchers is with different tumours in body
The result obtained in interior and external research is not quite similar [Wilkie S, Picco G, Foster J, et
al.Retargeting of human T cells to tumorassociated MΜC1:the evolution of a
chimeric antigen receptor.J Immunol2008;180:4901–4909.].So between CAR-T immunotherapies
Difference may come from signal transduction activation, the extracellular antigen bindings of scFv, the culture amplification for recombinating T lymphocytes incessantly,
May also with body inner tumour cell to Chimeric antigen receptor T cell adaptive change (immunologic escape of such as tumour cell) or
Complicated tumor microenvironment is related, so as to affect the final antitumous effect of CAR-T cells.
CAR-T immunotherapies achieve unprecedented success [Chimeric on treatment B cell leukemia and lymthoma
antigen receptor-modified T cells in chronic lymphoid leukemia.N Engl J
Med.2011;365(8):725-733.], however, but curative effect is not good enough for a large amount of patients with solid tumor for this therapeutic strategy
[Prospects for gene-engineered T cell immunotherapy for solid cancers.Nat
Med.2016;22(1):26-36.].The research of early stage is conceived to the T lymphocytes stablized and generate cancer target, and around tumour
The microenvironment of inhibition but may make CAR-T cells become have no effectiveness.Therefore, the research direction of this following therapy is to produce
Life can resist inhibition of the immune effector molecule to CAR-T cells and the induction to its apoptosis in tumor microenvironment.Recent monoclonal antibody
The successful application of immune activation checkpoint (including CTLA-4 and PD-L1) in treatment of solid tumors is targeted to pass through immunological approach
Control cancer provides strong evidence.Programmed death 1 and its ligand (PD-L1/PD-L1) are a pair of of negative immunes
Costimulatory molecules are the important molecules participated in during tumor immune escape (Tumor escape).When T lymphocytic cell surfaces
After the PD-L1 and PD-L1 of tumor cell surface height expression is mutually distinguishable, inhibition signal is transferred to T lymphocytes by PD-L1
It is interior, inhibit the function of T cell, inhibit the release of inflammatory factor, be the one of the major reasons for causing tumour that immunologic escape occurs.Institute
With the research to interact between PD-L1 and PD-L1 is expected to provide important experimental basis for the targeted therapy of tumour.
HER2 is epidermal growth factor acceptor 2, there is expression on 80% Malignant glioma cells surface, and is born in people
Later neuron and spongiocyte surface are verified by multiple experimental centers almost without expression, are a kind of very special
Immunotherapeutic targets (Nabil Ahmed et al.HER2-specific T cells target primary
Glioblastoma stem cells and induce regression of autologous experimental
tumors.Clin Cancer Res.2010January 15;16(2):474-485.), therefore, recent years is in glioblastoma
There is the effect of notable in the treatment of knurl (glioblastoma), it is considered to be the therapeutic modality of most promising glioblastoma
One of.
Therefore, how the generation of tumour cell immune escape inhibited using the method for low cost, enhances T lymphocytes pair
The killing of tumour cell so as to improve the anti-glioma effect of CAR-T immunotherapies, becomes a technology difficulty of CAR-T treatments
Topic.
At present, there is not yet in relation to can target Her2 and close PD-L1 reduce tumor immune escape CAR-T carriers report
Road.
Invention content
One of the technical problem to be solved in the present invention be to provide it is a kind of can target Her2 and close PD-L1 reduce tumour immunity
The CAR-T carriers of escape.CAR-T technologies of the present invention for Her2, and pass through the PD- expressed in T lymphocytes
L1 scFv close the PD-L1 of tumor cell surface, prevent the interaction of PD-1 and PD-L1, and tumour cell is inhibited to be immunized and is escaped
The generation of ease, killing of the enhancing T lymphocytes to tumour cell, so as to improve the anti-glioma effect of CAR-T immunotherapies.
The second technical problem to be solved by the present invention is to provide the construction method of the carrier.
The third technical problem to be solved by the present invention is to provide the application of the carrier.
In order to solve the above technical problems, the present invention adopts the following technical scheme that:
In one aspect of the invention, a kind of CAR-T that can target Her2 and close PD-L1 reduction tumor immune escapes is provided
Carrier, including:
For people's EF1 α promoters of the eukaryotic transcription of Chimeric antigen receptor gene, as shown in SEQ ID NO.1;
Integrate identification, transmission, two generation CAR of startup or the Chimeric antigen receptor of three generations CAR for forming, this is chimeric
Antigen receptor includes Her2 single-chain antibody light chain VL and Her2 single-chain antibody heavy chains VH;
IRES ribosome binding sequences, as shown in SEQ ID NO.10;
PD-L1 scFv:Including the CD8leader Chimerical receptor signal peptides as shown in SEQ ID NO.2, such as SEQ ID
PD-L1 single-chain antibody light chains VL shown in NO.11, single-chain antibody hinge Linker, such as SEQ ID as shown in SEQ ID NO.4
PD-L1 single-chain antibody light chains shown in NO.12;
And gene delivery vector.
As currently preferred technical solution, the two generation CAR that identification, transmission, startup are integrated for composition
Chimeric antigen receptor include:CD8leader Chimerical receptors signal peptide as shown in SEQ ID NO.2, such as SEQ ID NO.3 institutes
The Her2 single-chain antibody light chains VL that shows, the single-chain antibody hinge Linker as shown in SEQ ID NO.4, such as SEQ ID NO.5 institutes
Her2 single-chain antibody heavy chains VH, the CD8Hinge Chimerical receptors hinge as shown in SEQ ID NO.6, such as SEQ ID NO.7 shown
Shown CD8 Transmembrane Chimerical receptors transmembrane region, the CD137 Chimerical receptor costimulations as shown in SEQ ID NO.8
The factor, the TCR Chimerical receptor t cell activations domain as shown in SEQ ID NO.9;
As currently preferred technical solution, the three generations CAR that identification, transmission, startup are integrated for composition
Chimeric antigen receptor include:CD8leader Chimerical receptors signal peptide as shown in SEQ ID NO.2, such as SEQ ID NO.3 institutes
The Her2 single-chain antibody light chains VL that shows, the single-chain antibody hinge Linker as shown in SEQ ID NO.4, such as SEQ ID NO.5 institutes
The Her2 single-chain antibody heavy chains VH shown, CD8 Hinge Chimerical receptors hinge, such as SEQ ID NO.7 as shown in SEQ ID NO.6
Shown CD8 Transmembrane Chimerical receptors transmembrane region, the CD137 Chimerical receptor costimulations as shown in SEQ ID NO.8
The factor, the TCR Chimerical receptor t cell activations domain as shown in SEQ ID NO.9;And the CD28 as shown in SEQ ID NO.23 is embedding
Close receptor costimulating factor.
The gene delivery vector includes slow virus carrier, retroviral vector, adenovirus vector, adeno-associated virus and carries
Body etc., preferably third generation slow virus carrier, the third generation slow virus carrier include the sequences of AmpR containing ampicillin resistance gene,
Prokaryotic replions pUC Ori sequences, Viral Replicon SV40 Ori sequences, RSV promoters, 5 terminal LTR of slow virus,
3 terminal Self-Inactivating LTR of slow virus, Gag cis elements, RRE cis elements, env cis elements,
The enhanced marmot hepatitis B posttranscriptional regulatory element of cPPT cis elements, IeWPRE.The enhanced marmot second of eWPRE
Hepatovirus posttranscriptional regulatory element has the enhancing mutation of 6 nucleotide, specially:g.396G>A、g.397C>T、g.398T>C、
g.399G>A、g.400A>T、g.411A>T。
In the second aspect of the present invention, provide it is a kind of it is above-mentioned can target Her2 and close PD-L1 reduce tumor immune escape
CAR-T carriers construction method, include the following steps:
Include the following steps:
(1) gene delivery vector is provided;
(2) by as shown in SEQ ID NO.1 people EF1 α promoters, for form integrate identification, transmission, startup
The Chimeric antigen receptor of two generation CAR or three generations CAR, the IRES ribosome binding sequences as shown in SEQ ID NO.10, PD-L1
ScFv is combined into two generation CAR or three generations's CAR designing schemes, and gene delivery vector is cloned by digestion, connection, recombining reaction
In, obtain the gene delivery vector of two generation CAR or three generations CAR designs;
(3) packaging gene transmits carrier;
(4) cmy vector obtains recombinant C AR-T carriers.
As currently preferred technical solution, gene delivery vector described in step (1) is third generation slow virus carrier,
The third generation slow virus carrier includes the sequences of AmpR containing ampicillin resistance gene, prokaryotic replions pUC Ori sequences, virus
Replicon SV40Ori sequences, RSV promoters, slow virus 5terminal LTR, slow virus 3terminal Self-
Inactivating LTR, Gag cis elements, RRE cis elements, env cis elements, cPPT cis elements, eWPRE are enhanced
Marmot hepatitis B posttranscriptional regulatory element;Step (3) is specially:The carrier that obtained two generation CAR or three generations CAR are designed
HEK293T/17 cells are transfected jointly with slow virus packaging plasmid pPac-GP, pPac-R and memebrane protein plasmid pEnv-G respectively,
After carrying out gene transcript expression in HEK293T/17 cells, packing successfully recombined lentivirus vector can be discharged into cell culture
In clear, the supernatant of the recombined lentivirus vector included is collected.
As currently preferred technical solution, step (4) is specially:The purifying is using the column for filtering, adsorbing, eluting
Way of purification.
As currently preferred technical solution, in step (2), entire CAR gene expressions are started by people EF1 α promoters;
CD8 leader Chimerical receptors signal peptide is located at the N-terminal of CAR coded sequences, for CAR albumen to be guided to be positioned at cell membrane;Her2
Single-chain antibody light chain VL, single-chain antibody hinge Linker, Her2 single-chain antibody heavy chain VH are combined into scfv regions, for identifying
Her2 antigens;CD8 Hinge Chimerical receptors hinge is used to scfv being anchored on the outside of cell membrane;CD8 Transmembrane are embedding
Receptor transmembrane area is closed to be used to entire Chimerical receptor being fixed on cell membrane;CD137 Chimerical receptors costimulating factor is used to stimulate T
Cell Proliferation and cytokine secretion;TCR Chimerical receptor t cell activations domain is used to activate the expression of downstream signaling pathway;When
When Her2scFv regions are with Her2 antigen bindings, signal is transferred into the cell by Chimerical receptor, be proliferated so as to generate T cell,
Cytokine secretion increases, Anti-apoptotic proteins secretion increases, cell death delay, cracks a series of biology effects of target cell
It should;PD-L1 scFv after IRES ribosome binding sequences inhibit T lymphocytes PD-1 to be combined with the PD-L1 on tumour cell,
Tumor immune escape is reduced, enhances the killing to tumour cell.
As currently preferred technical solution, in step (4), the suction filtration step will control supernatant volume in 200ml
~2000ml, control vacuum degree prevent the carrier loss brought due to plug-hole in -0.5MPA~-0.9MPA;The adsorption step
Controlling the pH value of solution, preventing the variation of PH causes carrier to inactivate 6~8;The elution step to control eluent from
Sub- intensity prevents the variation of ionic strength from causing elution not exclusively or carrier inactivation in 0.5M~1.0M.
In the third aspect of the present invention, application of the above-mentioned carrier in the drug for reducing tumor immune escape is prepared is provided.
Compared with prior art, the present invention has the advantages that:
Chimeric antigen receptor (CAR) is the core component (shown in Fig. 1) of CAR-T, and it is non-dependent to assign T lymphocytes HLA
Mode identifies the ability of tumour antigen, this enables by the T cell that CAR is transformed compared to nave T cell surface receptor TCR
Identify wider target.The CAR designs of the present invention include a Her2 combined area and (are typically derived from monoclonal antibody antigen
The scFV sections of calmodulin binding domain CaM), an extracellular hinge area, a transmembrane region, an intracellular signal transduction area passes through an IRES area
Connect a PD-L1 scFv combined area.ScFV sections of design is for the specificity of CAR, validity and genetic modification T cell
The safety of itself is being crucial determinant.And the PD-L1 scFv combined areas of IRES areas connection can inhibit T lymphocytes
Surface PD-1 and tumor cell surface PD-L1 interacts, and plays a crucial role in immunosurveillance escape is resisted.
Currently preferred gene delivery vector is that (third generation slow virus carrier exists third generation slow virus carrier
" a kind of CAR-T transgene carriers and its construction method based on replication defective recombinant slow virus filed in 17 days March in 2016
And application " disclosed in patent of invention, number of patent application:201610008360.5), 3 ' SIN LTR eliminate U3 regions, eliminate
The possibility of slow virus carrier self-replacation, substantially increases safety;CPPT and WPRE elements are increased, improve transduction effect
The expression efficiency of rate and transgenosis;Core RNA continues efficiently to turn when ensure that slow virus carrier packaging using RSV promoters
Record;Using the EF1 α promoters of people itself, enable CAR genes in human body long lasting for expression.
The recombined lentivirus vector of the present invention can realize the expression Her2 Chimeric antigen receptors on human T lymphocyte, draw
It leads and activated T lymphocytes is to the lethal effects of Her2 positive cells, while lymphocytic emiocytosis PD-L1 scFv closing tumours
The PD-L1 of cell surface, killing of the enhancing T lymphocytes to Her2 positive cells, reduces the immunologic escape of tumour cell, is facing
The effect of CAR-T- treatment glioblastomas are improved on bed.
Experiments verify that the PD-L1 scFv that the present invention uses inhibit T lymphocytes PD-1 and the PD-L1 on tumour cell
With reference to reduction tumor immune escape enhances the killing to tumour cell.Compared with simple CAR-Her2, it can significantly improve
The secretion of cell factor, the killing effect in vitro and clinical therapeutic efficacy of CAR-T cells have reached unexpected technology effect
Fruit.
Description of the drawings
The schematic diagram of Fig. 1 CAR of the present invention, wherein Figure 1A are the basic block diagrams of CAR, and Figure 1B is the generation of CAR
Improve schematic diagram;
Slow virus carrier structure diagram in Fig. 2 embodiment of the present invention 1;
Fig. 3 is the structure flow chart that recombined lentivirus vector of the present invention is built in the embodiment of the present invention 1.Wherein,
Fig. 3 A are the structure diagrams of slow virus skeleton plasmid pLenti-3G basic;Fig. 3 B are pLenti-3G basic plasmid inscribes
Digestion removes ZsGreen1 green fluorescent protein schematic diagrames;Fig. 3 C are CAR-Her2, CAR-Her2-IRES-PD-L1 of gene chemical synthesis
ScFv fragmentary views;Fig. 3 D are pCAR-Her2 plasmid construct schematic diagrames;Fig. 3 E are pCAR-Her2-IRES-PD-L1 scFv
Plasmid construct schematic diagram;Fig. 3 F are memebrane protein pEnv-G plasmid construct schematic diagrames;Fig. 3 G are slow virus packaging plasmid pPac-GP matter
Kernel structure schematic diagram;Fig. 3 H are slow virus packaging plasmid pPac-R plasmid construct schematic diagrames;
Fig. 4 is that recombinant slow virus detection of mycoplasma is as a result, lane1 is DL2000marker in the embodiment of the present invention 3, from upper
It is followed successively by from top to bottom to lower counterband tape:2kb、1kb、750bp、500bp、250bp、100bp;Lane2 is positive control;
Lane3 is negative control;Lane4 is PBS;Lane5 is H2O;Lane6 is lvCAR-Her2;Lane7 is lvCAR-Her2-
IRES-PD-L1 scFv;
Fig. 5 is the block diagram of mRNA relative expression quantities in the embodiment of the present invention 4, and QPCR is the result shows that CAR and PD-L1
ScFv is in the intracellular high efficient expressions of PBMC;
Fig. 6 is that the killing-efficiency schematic diagram under the conditions of the different effect target ratios of LDH detections, E are thin for effect in the embodiment of the present invention 4
Born of the same parents, T are target cell, the results showed that the killing-efficiency of lvCAR-Her2-IRES-PD-L1 scFv groups is apparently higher than lvCAR-Her2
Group;
Fig. 7 is the different Cytokine Expression Levels under the conditions of imitating target ratio of QPCR detections in the embodiment of the present invention 4, and E is effect
Cell, T are target cell;Fig. 7 A represent the mRNA transcriptional levels of IL-2;Fig. 7 B represent the mRNA transcriptional levels of IFN-γ;As a result table
Bright, compared with lvCAR-Her2 groups, lvCAR-Her2-IRES-PD-L1 scFv groups can significantly raise IL-2 and IFN-γ inflammation
The expression of the factor contributes to killing of the CAR-T effector cell to tumour cell.
Specific embodiment
The invention is expanded on further with reference to specific embodiment.It should be understood that particular implementation described here
It represents by way of example, is not intended as limitation of the present invention.Without departing from the scope of the invention, it is of the invention
Main feature can be used for various embodiments.
Embodiment 1 builds CAR recombined lentivirus vectors
First, material
1st, slow virus skeleton plasmid pLenti-3G basic (slow virus carrier structure is shown in Fig. 2), slow virus packaging plasmid
PPac-GP, pPac-R and memebrane protein plasmid pEnv-G, HEK293T/17 cell, homologous recombination enzyme are taken wing (Shanghai) biology by generation
Pharmaceutical Technology Co., Ltd provides;
2nd, people EF1 α promoters (SEQ ID NO.1), CD8leader Chimerical receptors signal peptide (SEQ ID NO.2), Her2
Single-chain antibody light chain VL (SEQ ID NO.3), single-chain antibody hinge Linker (SEQ ID NO.4), Her2 heavy chains VH (SEQ ID
NO.5), CD8 Hinge Chimerical receptors hinge (SEQ ID NO.6), CD8 Transmembrane Chimerical receptor transmembrane regions (SEQ
ID NO.7), CD137 Chimerical receptors costimulating factor (SEQ ID NO.8), TCR Chimerical receptor t cell activations domain (SEQ ID
NO.9), IRES ribosome binding sequences (SEQ ID NO.10), PD-L1 single-chain antibody light chains VL (SEQ ID NO.11),
Linker (SEQ ID NO.4), PD-L1 single-chain antibody light chains VH (SEQ ID NO.12).3rd, primer:According to design of primers principle
The primer needed for amplification of DNA fragments is designed, which is synthesized by Shanghai biotech firm, specially:
WPRE-QPCR-F:5’-CCTTTCCGGGACTTTCGCTTT-3’(SEQ ID NO.13)
WPRE-QPCR-R:5’-GCAGAATCCAGGTGGCAACA-3’(SEQ ID NO.14)
Actin-QPCR-F:5’-CATGTACGTTGCTATCCAGGC-3’(SEQ ID NO.15)
Actin-QPCR-R:5’-CTCCTTAATGTCACGCACGAT-3’(SEQ ID NO.16)
CAR-QPCR-F:5’-GACTTGTGGGGTCCTTCTCCT-3’(SEQ ID NO.17)
CAR-QPCR-R:5’-GCAGCTACAGCCATCTTCCTC-3’(SEQ ID NO.18)
IL2-QPCR-F:5’-GGACTTAATCAGCAATATCAAC-3’(SEQ ID NO.19)
IL2-QPCR-R:5’-AAGGTAATCCATCTGTTCAG-3’(SEQ ID NO.20)
IFN-γ-QPCR-F:5’-TTCTCTTGGCTGTTACTG-3’(SEQ ID NO.21)
IFN-γ-QPCR-R:5’-TTCTGTCACTCTCCTCTT-3’(SEQ ID NO.22)
4、SEQ ID NO.1、SEQ ID NO.2、SEQ ID NO.3、SEQ ID NO.4、SEQ ID NO.5、SEQ ID
NO.6、SEQ ID NO.7、SEQ ID NO.8、SEQ ID NO.9、SEQ ID NO.10、SEQ ID NO.11、SEQ ID
NO.12、SEQ ID NO.13、SEQ ID NO.14、SEQ ID NO.15、SEQ ID NO.16、SEQ ID NO.17、SEQ ID
NO.18, SEQ ID NO.19, SEQ ID NO.20, SEQ ID NO.21, the DNA sequence dna shown in SEQ ID NO.22 are by Shanghai
Biotech firm synthesizes, and is preserved with oligonucleotides dry powder or plasmid form;
5th, toolenzyme Cla I, Sal I are purchased from NEB companies;
6th, high-fidelity enzyme PrimeSTAR, RN are purchased from Takara companies;
7th, 0.22 μm of -0.8 μm of PES filter is purchased from millipore companies;
8th, plasmid extraction kit, Ago-Gel QIAquick Gel Extraction Kit are purchased from MN companies;
9th, competent cell TOP10 is purchased from tiangen companies;
10、NaCl、KCl、Na2HPO4.12H2O、KH2PO4、Trypsin、EDTA、CaCl2, NaOH be purchased from Shanghai life work;
11st, Opti-MEM, FBS, DMEM, RPMI-1640, Hepes, purchased from invitrogen companies;
12nd, DNeasy kits are purchased from Shanghai JaRa company;
13rd, it is company that lymphocyte separation medium reaches section purchased from Shenzhen;
14th, mycoplasma test reagent box, endotoxin detection kit, Her2+K562 cells are taken wing (Shanghai) company purchased from generation;
15th, LDH detection kits are purchased from promega companies.
2nd, the construction method of recombined lentivirus vector pCAR-Her2, pCAR-Her2-IRES-PD-L1 scFv.
Referring to Fig. 3, the construction method of recombined lentivirus vector of the present invention is as follows:
By the people EF1 α promoters (SEQ ID NO.1) of synthesis, CD8leader Chimerical receptors signal peptide (SEQ ID
NO.2), Her2 single-chain antibodies light chain VL (SEQ ID NO.3), single-chain antibody hinge Linker (SEQ ID NO.4), Her2 are mono-
Chain antibody heavy chain VH (SEQ ID NO.5), CD8 Hinge Chimerical receptors hinge (SEQ ID NO.6), CD8Transmembrane
Chimerical receptor transmembrane region (SEQ ID NO.7), CD137 Chimerical receptors costimulating factor (SEQ ID NO.8), TCR Chimerical receptors T
Cell-stimulating domain segment (SEQ ID NO.9), IRES ribosome binding sequences (SEQ ID NO.10), CD8 leader be fitted by
Body signal peptide (SEQ ID NO.2), PD-L1 single-chain antibody light chains VL (SEQ ID NO.11), single-chain antibody hinge Linker
(SEQ ID NO.4), PD-L1 single-chain antibody light chains VH (SEQ ID NO.12) are cloned into slow virus skeleton plasmid pLenti-3G
Basic respectively obtains recombinant slow virus plasmid pCAR-Her2, pCAR-Her2-IRES-PD-L1 scFv.
(1) slow virus skeleton plasmid pLenti-3G basic are carried out using Cla I and Sal I restriction enzymes double
Digestion (Fig. 3 B), product pass through 1.5% agarose gel electrophoresis, and are tapped and recovered large fragment V1 (5833bp), are placed in
In Eppendorf pipes, corresponding segment (being shown in Table 1) is recycled, and measure product with the Ago-Gel QIAquick Gel Extraction Kit of MN companies
Purity and concentration;
1st, colloidal sol | Sol solutions are added in 200 μ l NTI/100mg gel ratios, 50 DEG C of water-baths are placed 5-10 minutes. |
2nd, with reference to DNA | 11000g is centrifuged 30 seconds, discards filtrate. |
3rd, film is washed | 700 μ l NT3,11000g centrifugation 30 seconds is added in, discards filtrate. |
4th, film is washed | It is primary to repeat third step |
5th, it dries | 11000g is centrifuged 1 minute, and the collecting pipe renewed is placed at room temperature for 1 minute. |
6th, eluted dna | 15-30 μ l NE are added in, are placed at room temperature for 1 minute, 11000g is centrifuged 1 minute, collects filtrate. |
1 Ago-Gel recycling step of table
(2) by DNA fragmentation V1 respectively with CAR-Her2, CAR-Her2-IRES-PD-L1 scFv segments with 5 μ l total volumes
And molar ratio 1:4 ratio is added in Eppendorf pipes, is added in 15 μ l of homologous recombination enzyme reaction solution, is incubated after mixing at 42 DEG C
It 30 minutes, is transferred to and places 2-3 minutes on ice, reaction solution is added in 50 μ l TOP10, is gently rotated with mixing content,
It is placed 30 minutes in ice, pipe is put into heat shock 90 seconds in pre-heating to 42 DEG C of thermostat water bath, pipe is quickly transferred to ice bath
In, cell is made to cool down 2-3 minutes, often pipe, is then transferred on 37 DEG C of shaking tables by pipe plus 900 μ l LB culture solutions, incubates 1 hour
Make bacteria resuscitation, the transformed bacteria solution of 100 μ l is taken to be coated on Amp LB agar plates, plate is inverted, 37 in constant incubator
DEG C culture, 16 hours.
In picking monoclonal to 1ml LB (Amp+) fluid nutrient medium, 37 DEG C of shaking tables 200 turn over night, and inspection in second day is surveyed
Sequence identifies correctly clone;(3) by corresponding recombinant slow virus plasmid glycerol stock 20ul inoculations and 200ml LB (Amp+) liquid
In culture medium, 37 DEG C of shaking tables 200 turn over night, second day harvest bacterium solution, row plasmid extraction (MN companies plasmid extraction kit), inspection
Plasmid purity and concentration are surveyed, -20 DEG C spare;
The packaging of 2 recombinant slow virus lvCAR-Her2 of embodiment, lvCAR-Her2-IRES-PD-L1 scFv.
(1) complete medium:Preheated fresh culture is taken out, 10%FBS+5ml Pen-Srep is added in, runs up and down
Mixing;
(2) 1XPBS solution:Weigh NaCl 8g, KCl 0.2, Na2HPO4.12H2O 3.58g, KH2PO4 0.24g
It is placed in 1000ml beakers, adds in the ultrapure water dissolutions of 900ml Milli-Q grade, after the completion of dissolving, use
1000ml graduated cylinders are settled to 1000ml, 121 DEG C of high-temperature heat sterilization 20min;
(3) 0.25%Trypsin solution:Trypsin 2.5g, EDTA 0.19729g is weighed to be placed in 1000ml beakers,
900ml 1XPBS dissolving is added in, after the completion of dissolving, 1000ml is settled to using 1000ml graduated cylinders, 0.22 μM of filtration sterilization, for a long time
Using can preserve to -20 DEG C of refrigerators;
(4) 0.5M CaCl2 solution:Weigh 36.75g CaCl2With the ultrapure water dissolutions of 400ml Milli-Q grade;With
Total volume is settled to 500ml, mixing by Milli-Q grade ultra-pure waters;0.22 μm of filtration sterilization, packing are saved in 50ml centrifugations
Guan Zhong, often pipe 45ml or so, 4 DEG C of preservations.(5) 2XHBS solution:Weigh 4.09g NaCl, 0.269g Na2HPO4,5.96g
Hepes, with the ultrapure water dissolutions of 400ml Milli-Q grade;After calibrating pH instrument, with 2M NaOH solutions by the pH tune of HBS solution
To 7.05.The PH consumption 2M NaOH for adjusting every bottle of HBS are 3ml or so;
(6) the HEK293T/17 cells frozen are taken out from liquid nitrogen container, are quickly transferred in 37 DEG C of water-baths, after 1~2min
It is transferred in super-clean bench, the liquid in cryopreservation tube is fully transferred to 10cm by sterile working2In culture dish, supply containing 10%FBS
DMEM to 8mL/10cm2Dish, rear micro- sem observation cell, the degree of cell confluency are passed on more than 80% for 24 hours;
(7) selection cell state is good, free of contamination HEK293T/17 cells, is one group per 2-6 culture dish, by cell
After pancreatin digestion, 4-12ml complete mediums are drawn with electric pipettor, 2ml is added into each postdigestive culture dish, is avoided
Culture dish is dried;All cells are blown and beaten into single cell suspension using 1ml pipettors, are transferred in medium bottle;
(8) remaining cell in above-mentioned 2-6 culture dish is transferred in medium bottle, and rinsed again with culture medium once
Culture dish;
(9) culture medium bottle cap is covered tightly, turn upside down 10 times or so abundant mixing cell suspensions, and cell is passed to 8-24
10cm2In culture dish, the cell density per ware should about 4 × 106A/10ml complete mediums or so.If cell density and pre-
The difference of phase is larger, then needs to count cell, then according to 4 × 106The amount inoculation of a/ware;
(10) every 6 culture dishes are arranged piles up for one, pays attention to keeping the cooperation between ware up and down.It is front and rear by culture dish or so
It shakes for several times, cell is made fully to spread out, is then placed in 5%CO2Incubator.Remaining cell does similary processing;
(11) institute's passage cell is checked, cell confluency degree should be 70-80%, and profile is full, adherent good, is trained in cell
It supports and is uniformly distributed in ware;(12) liquid is changed for cell, culture medium is replaced with into fresh complete medium, per ware 9ml, and by incubator
CO2Concentration set point is increased to 8%;(13) match DNA/CaCl according to N+0.52Solution.Per ware HEK293T/17 cell transfecting matter
Grain amount is used according to following ratio:Recombinant slow virus plasmid (20 μ g), pPac-GP (15 μ g), pPac-R (10 μ g), pEnv-G
(7.5μg).A new 5ml centrifuge tube is taken, adds in 0.5M CaCl2:0.25ml, 20 μ g of recombinant slow virus plasmid:pPac-GP
15μg:pPac-R 10μg:7.5 μ g of pEnv-G, supplement ultra-pure water to 0.5ml close the lid, abundant mixing;
(14) it is another to take a 5ml centrifuge tube, add in 0.5ml DNA/CaCl2 solution.Turbula shaker is opened, a hand is taken
The firmly upper end of 5ml centrifuge tubes makes tube bottom contact oscillating end, and liquid is made to scatter on tube wall flowing, and another hand moves 1mL by one
Liquid rifle is drawn 0.5mL 2 × HBS solution, is slowly added dropwise into centrifuge tube, coutroi velocity, being dripped off with half a minute is advisable.2×HBS
It after addition, after persistent oscillation 5 seconds, stops oscillation, can be directly added into the cell for needing to transfect;
(15) take a ware cell, the 1mL calcium in centrifuge tube is turned drop adds, make as far as possible calcium turn reagent be distributed to it is whole
In a culture dish;
(16) it after calcium turns liquid addition, covers and marks in ware, culture dish is released to another 5%CO2In incubator.
Ensure that culture dish is horizontal positioned, often pile up culture dish and do not exceed 6.In 5%CO2(6-8h) is placed in incubator;
(17) by the CO of first incubator2Concentration set point adjusts back to 5%;
After (18) 24 hours, cell state is checked.Cell confluency degree should be 80-85% or so, in good condition.It will culture
Base siphons away, and replaces the fresh DMEM complete mediums of 10ml;
After (19) 48 hours, transfection efficiency is observed.Most cells are still adherent.It is it can be seen that thin more than 95%
Born of the same parents can carry green fluorescence.Same virus is packed into supernatant collection to together, and continues addition 10mL into culture dish
Fresh culture;
After (20) 72 hours, same vial supernatant is collected into the virus together, collected twice again to be placed on
Together, culture dish is abandoned;Recombinant slow virus lvCAR-Her2, lvCAR-Her2-IRES- are contained in the supernatant collected at this time
PD-L1 scFv。
The concentration and detection of 3 recombined lentivirus vector of embodiment
1st, ion exchange chromatography recombinant slow virus
(1) supernatant of collection is filtered, except impurity elimination using Thermo vacuum pumps through 0.22 μm -0.8 μm of PES filters
Matter;
(2) by 1:1~1:10 ratio adds in 1.5M NaCl 250mM Tris-HCl (pH 6-8) into supernatant;
(3) 2 ion exchange columns are placed in series, with 4ml 1M NaOH, 4ml 1M NaCl, 5ml 0.15M NaCl
25mM Tris-HCl (pH 6-8) solution crosses column successively;
(4) by peristaltic pump the solution obtained in step 2 is given to ion exchange column loading with the speed of 1-10ml/min;
(5) it after whole supernatants cross column, is cleaned using 10ml 0.15M NaCl 25mM Tris-HCl (pH 6-8) solution
One time;
(6) it is eluted according to applied sample amount using 1-5ml 1.5M NaCl 25mM Tris-HCl (pH 6-8), collection is washed
De- liquid;
(7) eluent is divided into 25 to 50 μ l mono- to manage, freezes -80 DEG C of refrigerators, preserved for a long time;
2nd, recombinant slow virus titer determination;
(1) 24 orifice plates is taken to be inoculated with 293T cells.It is 5 × 10 per hole cell4A, added culture volume is 500ul, different
Difference, cell confluency when carrying out virus infection are 40%-60% to the vitro growth rates of type;
(2) prepare 3 sterile EP pipes, the fresh complete medium (DMEM in high glucose+10% of 90ul is added in each pipe
FBS) inoculating cell takes the cell in two holes to be counted with blood counting chamber after 24 hours, determines the actual number of cell during infection,
It is denoted as N;
(3) virus stock solution used 10ul to be determined is taken to be added in first pipe, gently after mixing, 10ul is taken to be added to second
In a pipe, a to the last pipe is then operated successively;410ul complete medium (DMEM in high glucose+10% is added in every pipe
), FBS final volume 500ul;
(4) 20 hours after infection starts, culture supernatant is removed, is changed to 500 μ l complete medium (DMEM in high glucose+10%
FBS), 5%CO2Continue culture 48 hours;
After (5) 72 hours, luciferase expression situation is observed, under normal circumstances, fluorecyte number increases and phase with extension rate
It should reduce, and take pictures;
(6) it with 0.25% pancreas enzyme -EDTA solution digestion cells of 0.2ml, is placed 1 minute at 37 DEG C.It is purged with culture medium whole
A cell face, is collected by centrifugation cell.Illustrate extracting genomic DNA according to DNeasy kits.200 are added in each sample cell
μ l eluents are washed lower DNA and are quantified;
(7) prepare target DNA detection qPCRmix manifold I (QPCR primers are SEQ ID NO.13-SEQ ID NO.14):
N=number of reactions. are for example:Overall reaction number is 40, by 2 × TaqMan of 1ml Universal
PCR Master Mix, 4 μ l forward primer, 4 μ l reverse primer, 4 μ l probe and 788 μ l H2O are mixed
With.It is placed on ice after concussion;
(8) preparing internal reference DNA detection qPCRmix pipes II, (QPCR primer sequences are SEQ ID NO.15-SEQ ID
NO.16):
2×TaqMan Master Mix 25μl×n
10×RNaseP primer/probe mix 2.5μl×n
H2O 17.5μl×n
N=number of reactions. are for example:Overall reaction number is 40, by 2 × TaqMan of 1ml Universal
PCR Master Mix, 100 μ l 10 × RNaseP primer/probe mix and 700 μ l H2O is mixed.Ice is placed on after concussion
On;
(9) PCR system is completed in 96 hole PCR plates of precooling to establish.45 μ l is respectively taken to be added to each rows of A-D from manifold I
Hole in, 45 μ l is respectively taken to be added in the hole of each rows of E-G from manifold II.
(10) 5 μ l plasmid standards and sample to be tested genomic DNA is taken to be added in A-D rows respectively, each sample repeats 1
It is secondary.It is another to stay the water that 1 hole adds in 5 μ l as no template control (no-template control).
(11) 5 μ l genomes standard items and sample to be tested genomic DNA is taken to be added in E-G rows respectively, each sample weight
It is 1 time multiple.It is another to stay the water that 1 hole adds in 5 μ l as no template control (no-template control).
(12) it is 7500 quantitative systems of ABI PRISM to use quantitative PCR apparatus.Cycling condition is set as:50 DEG C 2 minutes,
95 DEG C 10 minutes, followed by 95 DEG C 15 seconds, 60 DEG C of 40 of 1 minute cycles.
Data analysis:The slow virus carrier copy number integrated in the DNA sample measured is demarcated with genome number, is obtained
Viral copy number per genome conformity.
Titre (integration units per ml, IU ml-1) calculation formula it is as follows:
IU ml-1=(C × N × D × 1000)/V
Wherein:The average viral copy numbers per genome conformity of C=
The number (about 1 × 10 of cell when N=infects5)
The extension rate of D=viral vectors
The volume number of dilution virus that V=is added in
3rd, recombinant slow virus endotoxin measurement;
(1), endotoxin working standard is 15EU/ branch;
(2), sensitivity of the limulus reagent λ=0.25EU/ml, 0.5ml/ are managed
(3), endotoxin standard dilutes:Endotoxin standard one is taken, is diluted to 4 λ and 2 λ in proportion with BET water respectively
Dissolving, sealed membrane sealing, concussion dissolving 15min;Often diluted during dilution a step should all on eddy mixer mixing 30s;
(4), it is loaded:Take reagents several, every adds in BET water 0.5ml dissolvings, dispenses to several endotoxin-frees and tries
Guan Zhong, often pipe 0.1ml.Wherein 2 are negative control pipe, add in BET water 0.1ml;
2 are positive control pipe, add in the endotoxin working standard solution 0.1ml of 2 λ concentration;
2 are Sample Positive control tube, and adding in sample solutions of the 0.1ml containing 2 λ endotoxin standards, (20 times of dilution is treated
The endotoxin standard solution 1ml=2ml of sample 1ml+4 λ contains 40 times of samples of dilution of 2 λ endotoxin standards).
Add in 0.1ml samples in sample cell, dilution ratio be shown in Table 2,37 ± 1 DEG C of water-baths (or incubator) heat preservation 60 ±
1min;
2 endotoxin dilution ratio of table and corresponding endotoxin content
(5), the endotoxin testing result of recombined lentivirus vector pCAR-Her2, pCAR-Her2-IRES-PD-L1 scFv
(as shown in table 3), endotoxin content meet the requirements between 0~2.5EU/ml;
Extension rate | Stoste | 5 | 10 | 20 | 40 | 80 | 160 |
Corresponding EU/ml | 0.25 | 1.25 | 2.5 | 5 | 10 | 20 | 40 |
pCAR-Her2 | + | + | - | - | - | - | - |
pCAR-Her2-IRES-PD-L1 scFv | + | + | - | - | - | - | - |
The endotoxin testing result of 3 recombined lentivirus vector of table
4th, recombinant slow virus mycoplasma measures;
(1) first three day is being tested, cell sample is cultivated with antibiotic-free culture medium;
(2) (cell number is more than 1*10 to collection 1ml cell suspending liquids5), it is placed in 1.5ml centrifuge tubes;
(3) 13000 × g centrifuge 1min, collect precipitation, discard culture medium;
(4) 500ul PBS pipette tips pressure-vaccum or vortex oscillation are added in, precipitation is resuspended.13000 × g centrifuges 5min;
(5) step 4 is repeated once;
(6) 50 μ l Cell Lysis Buffer are added in, with pipette tips pressure-vaccum, after abundant mixing, are incubated in 55 DEG C of water-baths
20min;
(7) sample is placed in 95 DEG C and heats 5min;
After (8) 13000 × g centrifugations 5min, taking 5 μ l supernatants, 25 μ lPCR reaction systems are as template:ddH20 6.5μ
L, 1 μ l of Myco Mix, 2x Taq Plus Mix Master (Dye Plus) 12.5 μ l, 5 μ l of template;PCR cycle condition is:
95 DEG C of 30sec, (95 DEG C of 30sec, 56 DEG C of 30sec, 72 DEG C of 30sec) * 30cycle, 72 DEG C of 5min.
(9) detection of mycoplasma result is shown (as shown in Figure 4), and the recombinant slow virus of purifying is free of mycoplasma.
The Function detection of 4 recombinant slow virus lvCAR-Her2 of embodiment, lvCAR-Her2-IRES-PD-L1 scFv.
1st, the cellular level detection of expression of CAR genes:
(1) it after recombinant slow virus lvCAR-Her2, lvCAR-Her2-IRES-PD-L1 scFv infection of PBMCs cells, collects
Cell carries out the detection of CAR mRNA transcriptional levels using QPCR, the expression of CAR genes is verified, if CAR mRNA transcriptional levels
Increase, then illustrate that the transcriptional level of CAR genes is expressed successfully;
(2) respectively by lvCAR-Her2, lvCAR-Her2-IRES-PD-L1 scFv of MOI=15 and comparison virus MOCK
Infection cell, the total serum IgE that cell in 6 orifice plates is extracted after 48h carry out fluorescent quantitative PCR experiment.Specific steps:It is coated with 6 orifice plates
Four holes, each hole add in corresponding PBS and RN, and 4 DEG C overnight.It is put after 12 hours by MOI=15 coating viruses, 37 DEG C of incubators
Put 5h;6 orifice plates taken out, discard viral supernatants, are washed twice with PBS, by 1*106/ hole, coating PBMC (use separation of lymphocytes
Liquid is detached from people's blood), add in 500ul culture mediums (containing 10% serum, 20U/ml IL-2, Polybrene 8ug/ml).It stands
20min, 1000g 20 DEG C of centrifugations 30min, 37 DEG C of culture 48h.(3) Trizol methods extract the total serum IgE of PBMC cells in 6 orifice plates,
Reverse transcription amplification cDNA carries out quantitative fluorescent PCR reality with QPCR primers (sequence is SEQ ID NO.17-SEQ ID NO.18)
It tests, reaction system is shown in Table 4, using internal reference Actin as control group, verifies the transcription situation of its mRNA.
Reagent | Volume (μ l) |
SYBR premix ex taq: | 10μl |
ROX Reverse Dye(50x) | 0.4μl |
Sense primer (2.5 μM): | 0.5μl |
Downstream primer (2.5 μM): | 0.5μl |
cDNA | 1.0μl |
ddH2O | 7.6μl |
4 20 μ l qPCR reaction systems of table
(4) QPCR detections show that the expression of the CAR-Her2 after recombinant slow virus infection of PBMCs compares comparison virus
MOCK and ghost are increased significantly (as shown in Figure 5), illustrate CAR-Her2 and PD-L1 scFv gene expressions success.
2nd, fragmentation effect assessment and cytokine secretion detection.
(1) Her2+K562 cells and effector cell lvCAR-Her2, lvCAR-Her2-IRES-PD-L1 are cultivated respectively
scFv;
(2) target cell (Her2+K562) 4x10 is collected5Cells and effector cell (CART cells) 2.8x106Cells,
800g, 6min are centrifuged, and abandon supernatant;
(3) target cell and effector cell are resuspended respectively with 1ml 1xPBS solution, supernatant is abandoned in 800g, 6min centrifugation;
(4) it is primary to repeat step 3;
(5) effector cell is resuspended with 700ul culture mediums (1640 culture medium+10%FBS), with (1640 cultures of 2ml culture mediums
Base+10%FBS) target cell is resuspended;
(6) setting effect target ratio is 1:1、5:1、10:1 experimental port, and control group is set, every group of 3 multiple holes;
(7) 250xg, 5min tablet centrifuge;
It is cultivated 4 hours in (8) 37 DEG C of 5%CO2 incubators;
(9) 250xg, 5min tablet centrifuge;
(10) it takes in the 50ul supernatants to new 96 orifice plate in each hole, and adds in 50ul substrate solutions per hole and (be protected from light behaviour
Make);
(11) it is protected from light incubation 25 minutes;
(12) 50ul terminate liquids are added in per hole;
(13) microplate reader detection 490nm absorbances;
(14) 3 multiple holes are averaged;The light absorption value of all experimental ports, Target cell wells and effector cell hole is subtracted into training
Support the mean value of base background light absorption value;The light absorption value of target cell maximum value is subtracted to the mean value of volume correction control light absorption value.
(15) it brings the corrected value obtained in step 14 into formula below, it is thinner than generated to calculate each effect target
Cellular toxicity percentage.The results are shown in Figure 6, the PBMC cells of recombinant slow virus lvCAR-Her2-IRES-PD-L1 scFv infection
Killing-efficiency is apparently higher than the PBMC cells of lvCAR-Her2 infection under the conditions of different effect target ratios, illustrates that PD-L1 scFv are effective
Enhance lethal effect of the CAR-T effector cell to tumour cell;
Killing-efficiency=(experimental port-effector cell hole-Target cell wells)/(target cell largest hole-Target cell wells) X100%
(16) sample for repeating to prepare a step 6 detects Cytokine Expression Level for QPCR, as a result such as Fig. 7 institutes
Show, recombinant slow virus lvCAR-Her2-IRES-PD-L1 scFv infection PBMC cells it is different effect target ratios under the conditions of IL-2 and
The mRNA transcriptional levels of IFN-γ are apparently higher than the PBMC cells of lvCAR-Her2 infection, illustrate that PD-L1 scFv can be raised significantly
The expression of IL-2 and IFN-γ inflammatory factor effectively enhance the expression of inflammatory factor, so as to significantly improve CAR-T effector cell couple
The lethal effect of tumour cell.
Experiments verify that the PD-L1 scFv that the present invention uses inhibit T lymphocytes PD-1 and the PD-L1 on tumour cell
With reference to reduction tumor immune escape enhances the killing to tumour cell.Compared with simple CAR-Her2, it can significantly improve
The secretion of cell factor, the killing effect in vitro and clinical therapeutic efficacy of CAR-T cells have reached unexpected technology effect
Fruit.
Sequence table
<110>Shanghai Shengbo Biomedical Technology Co., Ltd.
<120>Her2, which can be targeted, and close PD-L1 reduces the CAR-T carriers of tumor immune escape and its construction method and application
<130>HJ16-12450
<160> 23
<170> PatentIn version 3.5
<210> 1
<211> 1178
<212> DNA
<213>Artificial sequence
<400> 1
gctccggtgc ccgtcagtgg gcagagcgca catcgcccac agtccccgag aagttggggg 60
gaggggtcgg caattgaacc ggtgcctaga gaaggtggcg cggggtaaac tgggaaagtg 120
atgtcgtgta ctggctccgc ctttttcccg agggtggggg agaaccgtat ataagtgcag 180
tagtcgccgt gaacgttctt tttcgcaacg ggtttgccgc cagaacacag gtaagtgccg 240
tgtgtggttc ccgcgggcct ggcctcttta cgggttatgg cccttgcgtg ccttgaatta 300
cttccacctg gctgcagtac gtgattcttg atcccgagct tcgggttgga agtgggtggg 360
agagttcgag gccttgcgct taaggagccc cttcgcctcg tgcttgagtt gaggcctggc 420
ctgggcgctg gggccgccgc gtgcgaatct ggtggcacct tcgcgcctgt ctcgctgctt 480
tcgataagtc tctagccatt taaaattttt gatgacctgc tgcgacgctt tttttctggc 540
aagatagtct tgtaaatgcg ggccaagatc tgcacactgg tatttcggtt tttggggccg 600
cgggcggcga cggggcccgt gcgtcccagc gcacatgttc ggcgaggcgg ggcctgcgag 660
cgcggccacc gagaatcgga cgggggtagt ctcaagctgg ccggcctgct ctggtgcctg 720
gcctcgcgcc gccgtgtatc gccccgccct gggcggcaag gctggcccgg tcggcaccag 780
ttgcgtgagc ggaaagatgg ccgcttcccg gccctgctgc agggagctca aaatggagga 840
cgcggcgctc gggagagcgg gcgggtgagt cacccacaca aaggaaaagg gcctttccgt 900
cctcagccgt cgcttcatgt gactccactg agtaccgggc gccgtccagg cacctcgatt 960
agttctcgag cttttggagt acgtcgtctt taggttgggg ggaggggttt tatgcgatgg 1020
agtttcccca cactgagtgg gtggagactg aagttaggcc agcttggcac ttgatgtaat 1080
tctccttgga atttgccctt tttgagtttg gatcttggtt cattctcaag cctcagacag 1140
tggttcaaag tttttttctt ccatttcagg tgtcgtga 1178
<210> 2
<211> 63
<212> DNA
<213>Artificial sequence
<400> 2
atggccttac cagtgaccgc cttgctcctg ccgctggcct tgctgctcca cgccgccagg 60
ccg 63
<210> 3
<211> 357
<212> DNA
<213>Artificial sequence
<400> 3
caggtacaac tgcagcagtc aggacctgaa ctgaagaagc ctggagagac agtcaagatc 60
tcctgcaagg cctctgggta tcctttcaca aactatggaa tgaactgggt gaagcaggct 120
ccaggacagg gtttaaagtg gatgggctgg attaacacct ccactggaga gtcaacattt 180
gctgatgact tcaagggacg gtttgacttc tctttggaaa cctctgccaa cactgcctat 240
ttgcagatca acaacctcaa aagtgaagac atggctacat atttctgtgc aagatgggag 300
gtttaccacg gctacgttcc ttactggggc caagggacca cggtcaccgt ttcctct 357
<210> 4
<211> 45
<212> DNA
<213>Artificial sequence
<400> 4
ggtggcggtg gctcgggcgg tggtgggtcg ggtggcggcg gatct 45
<210> 5
<211> 321
<212> DNA
<213>Artificial sequence
<400> 5
gacatccagc tgacccagtc tcacaaattc ctgtccactt cagtaggaga cagggtcagc 60
atcacctgca aggccagtca ggatgtgtat aatgctgttg cctggtatca acagaaacca 120
ggacaatctc ctaaacttct gatttactcg gcatcctccc ggtacactgg agtcccttct 180
cgcttcactg gcagtggctc tgggccggat ttcactttca ccatcagcag tgtgcaggct 240
gaagacctgg cagtttattt ctgtcagcaa cattttcgta ctccattcac gttcggctcg 300
gggacaaaat tggagatcaa a 321
<210> 6
<211> 141
<212> DNA
<213>Artificial sequence
<400> 6
accacgacgc cagcgccgcg accaccaaca ccggcgccca ccatcgcgtc gcagcccctg 60
tccctgcgcc cagaggcgtg ccggccagcg gcggggggcg cagtgcacac gagggggctg 120
gacttcgcct gtgatatcta c 141
<210> 7
<211> 66
<212> DNA
<213>Artificial sequence
<400> 7
atctgggcgc ccttggccgg gacttgtggg gtccttctcc tgtcactggt tatcaccctt 60
tactgc 66
<210> 8
<211> 126
<212> DNA
<213>Artificial sequence
<400> 8
aaacggggca gaaagaaact cctgtatata ttcaaacaac catttatgag accagtacaa 60
actactcaag aggaagatgg ctgtagctgc cgatttccag aagaagaaga aggaggatgt 120
gaactg 126
<210> 9
<211> 336
<212> DNA
<213>Artificial sequence
<400> 9
agagtgaagt tcagcaggag cgcagacgcc cccgcgtaca agcagggcca gaaccagctc 60
tataacgagc tcaatctagg acgaagagag gagtacgatg ttttggacaa gagacgtggc 120
cgggaccctg agatgggggg aaagccgaga aggaagaacc ctcaggaagg cctgtacaat 180
gaactgcaga aagataagat ggcggaggcc tacagtgaga ttgggatgaa aggcgagcgc 240
cggaggggca aggggcacga tggcctttac cagggtctca gtacagccac caaggacacc 300
tacgacgccc ttcacatgca ggccctgccc cctcgc 336
<210> 10
<211> 575
<212> DNA
<213>Artificial sequence
<400> 10
gcccctctcc ctcccccccc cctaacgtta ctggccgaag ccgcttggaa taaggccggt 60
gtgcgtttgt ctatatgtta ttttccacca tattgccgtc ttttggcaat gtgagggccc 120
ggaaacctgg ccctgtcttc ttgacgagca ttcctagggg tctttcccct ctcgccaaag 180
gaatgcaagg tctgttgaat gtcgtgaagg aagcagttcc tctggaagct tcttgaagac 240
aaacaacgtc tgtagcgacc ctttgcaggc agcggaaccc cccacctggc gacaggtgcc 300
tctgcggcca aaagccacgt gtataagata cacctgcaaa ggcggcacaa ccccagtgcc 360
acgttgtgag ttggatagtt gtggaaagag tcaaatggct cacctcaagc gtattcaaca 420
aggggctgaa ggatgcccag aaggtacccc attgtatggg atctgatctg gggcctcggt 480
gcacatgctt tacatgtgtt tagtcgaggt taaaaaacgt ctaggccccc cgaaccacgg 540
ggacgtggtt ttcctttgaa aaacacgatg ataat 575
<210> 11
<211> 333
<212> DNA
<213>Artificial sequence
<400> 11
gatattgtgc tgacccagag cccggcgagc ctggcggtga gcccgggcca gcgcgcgacc 60
attacctgcc gcgcgagcca gagcgtgagc accagcagca gcagctttat gcattggtat 120
cagcagaaac cgggccagcc gccgaaactg ctgattaaat atgcgagcaa cctggaaagc 180
ggcgtgccgg cgcgctttag cggcagcggc agcggcaccg attttaccct gaccattaac 240
ccggtggaag cgaacgatac cgcgaactat tattgccagc atagctggga aattccgtat 300
acctttggcc agggcaccaa actggaaatt aaa 333
<210> 12
<211> 348
<212> DNA
<213>Artificial sequence
<400> 12
gaagtgcagc tggtggaaag cggcggcggc ctggtgaaac cgggcggcag cctgcgcctg 60
agctgcgcgg cgagcggctt tatttttcgc agctatggca tgagctgggt gcgccaggcg 120
ccgggcaaag gcctggaatg ggtggcgagc attagcagcg gcggcagcac ctattatccg 180
gatagcgtga aaggccgctt taccattagc cgcgataacg cgaaaaacag cctgtatctg 240
cagatgaaca gcctgcgcgc ggaagatacc gcggtgtatg attgcgcgcg cggctatgat 300
agcggctttg cgtattgggg ccagggcacc ctggtgaccg tgagcagc 348
<210> 13
<211> 21
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 13
cctttccggg actttcgctt t 21
<210> 14
<211> 20
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 14
gcagaatcca ggtggcaaca 20
<210> 15
<211> 21
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 15
catgtacgtt gctatccagg c 21
<210> 16
<211> 21
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 16
ctccttaatg tcacgcacga t 21
<210> 17
<211> 21
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 17
gacttgtggg gtccttctcc t 21
<210> 18
<211> 21
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 18
gcagctacag ccatcttcct c 21
<210> 19
<211> 22
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 19
ggacttaatc agcaatatca ac 22
<210> 20
<211> 20
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 20
aaggtaatcc atctgttcag 20
<210> 21
<211> 18
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 21
ttctcttggc tgttactg 18
<210> 22
<211> 18
<212> DNA
<213>Artificial sequence
<220>
<221> misc_feature
<223>Primer
<400> 22
ttctgtcact ctcctctt 18
<210> 23
<211> 123
<212> DNA
<213>Artificial sequence
<400> 23
aggagtaaga ggagcaggct cctgcacagt gactacatga acatgactcc ccgccgcccc 60
gggcccaccc gcaagcatta ccagccctat gccccaccac gcgacttcgc agcctatcgc 120
tcc 123
Claims (9)
1. a kind of CAR-T carriers that can target Her2 and close PD-L1 reduction tumor immune escapes, which is characterized in that including:
For people's EF1 α promoters of the eukaryotic transcription of Chimeric antigen receptor gene, as shown in SEQ ID NO.1;
Integrate identification, transmission, two generation CAR of startup or the Chimeric antigen receptor of three generations CAR, the chimeric antigen for forming
Receptor includes Her2 single-chain antibody light chain VL and Her2 single-chain antibody heavy chains VH;
IRES ribosome binding sequences, as shown in SEQ ID NO.10;
PD-L1scFv:Including the CD8leader Chimerical receptor signal peptides as shown in SEQ ID NO.2, such as SEQ ID NO.11 institutes
The PD-L1 single-chain antibody light chains VL shown, single-chain antibody hinge Linker, such as SEQ ID NO.12 as shown in SEQ ID NO.4
Shown PD-L1 single-chain antibody light chains;
And gene delivery vector.
2. carrier as described in claim 1, which is characterized in that
It is described for form integrate identification, transmission, startup the Chimeric antigen receptor of two generation CAR include:Such as SEQ ID
CD8leader Chimerical receptors signal peptide shown in NO.2, Her2 single-chain antibody light chains VL, such as SEQ as shown in SEQ ID NO.3
Single-chain antibody hinge Linker shown in ID NO.4, Her2 single-chain antibody heavy chains VH, such as SEQ as shown in SEQ ID NO.5
CD8Hinge Chimerical receptors hinge shown in ID NO.6, the CD8Transmembrane Chimerical receptors as shown in SEQ ID NO.7
Transmembrane region, the CD137 Chimerical receptors costimulating factor as shown in SEQ ID NO.8, the TCR as shown in SEQ ID NO.9 are fitted into
Recipient T cells activation domain;
It is described for form integrate identification, transmission, startup the Chimeric antigen receptor of three generations CAR include:Such as SEQ ID
CD8leader Chimerical receptors signal peptide shown in NO.2, Her2 single-chain antibody light chains VL, such as SEQ as shown in SEQ ID NO.3
Single-chain antibody hinge Linker shown in ID NO.4, Her2 single-chain antibody heavy chains VH, such as SEQ as shown in SEQ ID NO.5
CD8Hinge Chimerical receptors hinge shown in ID NO.6, the CD8Transmembrane Chimerical receptors as shown in SEQ ID NO.7
Transmembrane region, the CD137 Chimerical receptors costimulating factor as shown in SEQ ID NO.8, the TCR as shown in SEQ ID NO.9 are fitted into
Recipient T cells activation domain;And the CD28 Chimerical receptor costimulating factors as shown in SEQ ID NO.23.
3. carrier as described in claim 1, which is characterized in that the gene delivery vector includes slow virus carrier, reverse transcription
Viral vectors, adenovirus vector, gland relevant viral vector.
4. carrier as claimed in claim 3, which is characterized in that the gene delivery vector is third generation slow virus carrier, should
It is multiple that third generation slow virus carrier includes the sequences of AmpR containing ampicillin resistance gene, prokaryotic replions pUC Ori sequences, virus
System SV40Ori sequences, RSV promoters, slow virus 5terminal LTR, slow virus 3terminal Self-
Inactivating LTR, Gag cis elements, RRE cis elements, env cis elements, cPPT cis elements, eWPRE are enhanced
Marmot hepatitis B posttranscriptional regulatory element.
It is 5. a kind of as claim 1-4 any one of them can target Her2 and close PD-L1 reduction tumor immune escapes
The construction method of CAR-T carriers, which is characterized in that include the following steps:
(1) gene delivery vector is provided;
(2) by as shown in SEQ ID NO.1 people EF1 α promoters, for forming integrate two generations of identification, transmission, startup
The Chimeric antigen receptor of CAR or three generations CAR, the IRES ribosome binding sequences as shown in SEQ ID NO.10, PD-L1scFv groups
Two generation CAR or three generations's CAR designing schemes are synthesized, is cloned into gene delivery vector, obtains by digestion, connection, recombining reaction
The gene delivery vector of two generation CAR or three generations CAR designs;
(3) packaging gene transmits carrier;
(4) cmy vector obtains recombinant C AR-T carriers.
6. method as claimed in claim 5, which is characterized in that gene delivery vector described in step (1) is sick slowly for the third generation
Poisonous carrier, the third generation slow virus carrier include the sequences of AmpR containing ampicillin resistance gene, prokaryotic replions pUC Ori sequences
Row, Viral Replicon SV40Ori sequences, RSV promoters, slow virus 5terminal LTR, slow virus 3terminal Self-
Inactivating LTR, Gag cis elements, RRE cis elements, env cis elements, cPPT cis elements, eWPRE are enhanced
Marmot hepatitis B posttranscriptional regulatory element;Step (3) is specially:The carrier that obtained two generation CAR or three generations CAR are designed
HEK293T/17 cells are transfected jointly with slow virus packaging plasmid pPac-GP, pPac-R and memebrane protein plasmid pEnv-G respectively,
After carrying out gene transcript expression in HEK293T/17 cells, packing successfully recombined lentivirus vector can be discharged into cell culture
In clear, the supernatant of the recombined lentivirus vector included is collected.
7. method as claimed in claim 5, which is characterized in that step (4) is specially:The purifying, which uses, to be filtered, adsorbs, washing
De- column purification mode.
8. method as claimed in claim 5, which is characterized in that in step (2), entire CAR bases are started by people EF1 α promoters
Because of expression;CD8leader Chimerical receptors signal peptide is located at the N-terminal of CAR coded sequences, for CAR albumen to be guided to be positioned at cell
Film;Her2 single-chain antibody light chains VL, single-chain antibody hinge Linker, Her2 single-chain antibody heavy chain VH are combined into scfv regions, use
In identification Her2 antigens;CD8Hinge Chimerical receptors hinge is used to scfv being anchored on the outside of cell membrane;
CD8Transmembrane Chimerical receptors transmembrane region is used to entire Chimerical receptor being fixed on cell membrane;CD137 Chimerical receptors
Costimulating factor is used to stimulate T cell proliferation and cytokine secretion;TCR Chimerical receptor t cell activations domain is used to activate downstream
The expression of signal path;When Her2scFv regions and during Her2 antigen bindings, signal by Chimerical receptor be transferred into the cell, from
And generate T cell proliferation, cytokine secretion increase, Anti-apoptotic proteins secretion increase, cell death delay, cracking target it is thin
A series of biological effects of born of the same parents;PD-L1scFv after IRES ribosome binding sequences inhibits T lymphocytes PD-1 and tumour cell
On PD-L1 combine, reduce tumor immune escape, enhance the killing to tumour cell.
9. such as application of the claim 1-4 any one of them carrier in the drug for reducing tumor immune escape is prepared.
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CN108864310A (en) * | 2018-07-31 | 2018-11-23 | 苏州茂行生物科技有限公司 | A kind of building and its application of the CAR-T cell for targeting mesothelin and carrying PD-Ll blocking agent |
CN109694884A (en) * | 2019-01-09 | 2019-04-30 | 上海美丽人生医疗科技有限公司 | The preparation of CAR-T carrier for being applied in treatment of colon cancer and its construction method |
WO2020042648A1 (en) * | 2018-08-28 | 2020-03-05 | 法罗斯疫苗株式会社 | Improved lentiviral vector |
CN110863013A (en) * | 2018-08-28 | 2020-03-06 | 北京永泰瑞科生物科技有限公司 | Improved therapeutic T cells |
CN115141806A (en) * | 2021-03-31 | 2022-10-04 | 深圳宾德生物技术有限公司 | Chimeric antigen receptor T cell targeting Her2 and expressing PD-L1 antibody, and preparation method and application thereof |
CN116514998A (en) * | 2023-05-12 | 2023-08-01 | 再少年(北京)生物科技有限公司 | Chimeric antigen receptor, chimeric antigen receptor-natural killer cell and application thereof in preparation of antitumor drugs |
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CN108864310A (en) * | 2018-07-31 | 2018-11-23 | 苏州茂行生物科技有限公司 | A kind of building and its application of the CAR-T cell for targeting mesothelin and carrying PD-Ll blocking agent |
WO2020042648A1 (en) * | 2018-08-28 | 2020-03-05 | 法罗斯疫苗株式会社 | Improved lentiviral vector |
CN110863013A (en) * | 2018-08-28 | 2020-03-06 | 北京永泰瑞科生物科技有限公司 | Improved therapeutic T cells |
CN109694884A (en) * | 2019-01-09 | 2019-04-30 | 上海美丽人生医疗科技有限公司 | The preparation of CAR-T carrier for being applied in treatment of colon cancer and its construction method |
CN115141806A (en) * | 2021-03-31 | 2022-10-04 | 深圳宾德生物技术有限公司 | Chimeric antigen receptor T cell targeting Her2 and expressing PD-L1 antibody, and preparation method and application thereof |
CN116514998A (en) * | 2023-05-12 | 2023-08-01 | 再少年(北京)生物科技有限公司 | Chimeric antigen receptor, chimeric antigen receptor-natural killer cell and application thereof in preparation of antitumor drugs |
CN116514998B (en) * | 2023-05-12 | 2023-09-15 | 再少年(北京)生物科技有限公司 | Chimeric antigen receptor, chimeric antigen receptor-natural killer cell and application thereof in preparation of antitumor drugs |
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